Case for a mobile device with a screen

ABSTRACT

A case for a mobile device with a screen, the case comprising a band arranged to surround the edge of the device. The band comprises a layer of flexible polymer and a layer of a damping material which is softer than the flexible polymer provided within the flexible polymer layer. The damping material has a plurality of integrally formed protrusions projecting inwardly protrusions projecting inwardly from a substantial portion of the inner periphery of the band to engage with the device. The protrusions are provided at least in the corner regions of the case and the protrusions are arranged such that, in normal use there is substantially no contact between the band and the device other than through the protrusions.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No.14/812,602 filed on Jul. 29, 2015, which is a continuation of U.S.patent application Ser. No. 14/586,256 filed on Dec. 30, 2014, bothherein incorporated by reference.

FIELD OF THE INVENTION

The present invention relates to a case for a mobile device with ascreen such as a smart phone, tablet or E-reader.

BACKGROUND OF THE INVENTION

It is well known to make such cases of thermoplastic polyurethane (TPU)as this provides good durability for the case. It does not, however,provide good impact protection for the device as there is littledissipation of the impact and most of the energy of the impact istransferred to the device. Known impact resistant materials improve thisto some extent.

The present invention aims to improve on this.

SUMMARY OF THE INVENTION

According to the present invention there is provided a case for a mobiledevice with a screen, the case comprising a band arranged to surroundthe edge of the device, the band comprising a layer of flexible polymerand a layer of a damping material which is softer than the flexiblepolymer provided within the flexible polymer layer, the damping materialhaving a plurality of integrally formed protrusions projecting inwardlyfrom a substantial portion of the inner periphery of the band to engagewith the device, wherein the protrusions are arranged so that in normaluse there is substantially no contact between the band and the deviceother than through the protrusions; wherein the protrusions are providedat least in the corner regions of the case.

Having protrusions in engagement with the majority of the periphery ofthe device reduces significantly the contact area between the device andthe case to minimise energy transferred to the device. The flexiblepolymer outer layer absorbs impact energy and holds the shape of thecase, while the softer material with the protrusions further absorbs anddissipates the remaining energy of the impact away from the device.

The contact with the protrusions is concentrated at vulnerable regionssuch as the corners of the device. Portions of the longer edges, orportions of edges where plugs sockets are present may have noprotrusions. Alternatively, shorter protrusions may be provided alongthe longer edges of the case that will not contact the device in normaluse but will provide some cushioning if the longer edges of the case aredeflected inwardly.

The protrusions may have a number of configurations. They may, forexample be circular or annular projections extending inwardly from theband. However, it has been found that the preferred configuration is onein which the protrusions are ribs extending generally across the depthof the band and have a curved cross-section when viewed in a sectiontaken in the plane of the device. Preferably, the curved cross-sectionis substantially semi-circular. Experiments have shown that such a shapecan absorb and dissipate high amounts of energy.

The case may consist only of the band. However, it may also have a rearwall engaging with the back of the device. It may further include ahinged cover to protect the screen.

The interface between the two materials may be planar. However,preferably, the damping material is provided with a plurality ofoutwardly projecting protrusions which are imbedded in the flexiblepolymer.

The protrusions between the two materials improve the cushioning andgreatly increase energy absorption. The protrusions may have the sameconfiguration as the inwardly projecting ribs. However, preferably, theyare ribs which are rectangular in cross-section when viewed in a sectiontaken in the plane of the device.

In order to further enhance impact protection, a layer of materialharder than the flexible polymer material (measured on the Shore Ahardness scale) may be provided outside of the flexible polymermaterial. This provides a hard outer shell to further spread the impact.

The flexible polymer may be TPE or TPU. The softer material ispreferably a viscoelastic material or an impact damping or absorbingpolymer.

The protrusions are preferably relatively robust in the sense that whendropped from 7 meters onto a hard surface, the protrusions will preventcontact between the device and the material between adjacentprotrusions.

This may be achieved by having relatively large ribs where, preferably,each protrusion protrudes for a depth at least 0.5 mm (more preferably 1mm) from the band, has a width greater than the depth and a pitchbetween adjacent protrusions which is greater than twice the width.

BRIEF DESCRIPTION OF THE DRAWINGS

Examples of cases in accordance with the present invention will now bedescribed by reference to the accompanying drawings, in which:

FIG. 1 is a cross-section of a portion of a first case included forbackground interest only in contact with the device;

FIG. 2 is a similar view of a second case;

FIG. 3 is a similar view of a third case; and

FIG. 4 is a cross-section in the plane of the device of a full case withthe arrangement of FIG. 3.

DETAILED DESCRIPTION

FIG. 1 shows a small proportion of the case to illustrate the principleof the present invention. The whole case will run around the entireperiphery of the device D.

The simplest design is typified in FIG. 1 which is a single material 1,in this case TPU (for example BASF Elastollan), which is provided with anumber of inwardly extending ribs 2 which, as shown, have asemi-circular cross-section in the plane of the device and extend acrossthe width of the band. The ribs in this example have a width of 2 mm, adepth of 1.5 mm and a spacing of 3 mm.

The same basic structure is observed in FIG. 2 which is in accordancewith the invention, this time in a two part layer. The TPU forms theouter layer while an inner layer 3 formed in a dual injection process oras an insert mold is formed of a viscoelastic polymer which is softerthan the TPU (for example, a TPE such as Kraiburg Thermolast K or a PUfoam such as BASF Elastoflex). This time, the inwardly projecting ribs 2are provided in the viscoelastic polymer layer 3. The viscoelasticpolymer layer 3 also has a number of inwardly projecting ribs 4 whichare embedded in the TPU layer 1.

The third case shown in FIG. 3 also in accordance with the inventionadds to the second case of FIG. 2, a hard outer shell 5 which is a rigidpolymer case (for example Bayer Makrolon). As shown in FIG. 3, this mayonly be present in certain regions where higher hardness is beneficial.

The manner in which the example shown in FIG. 3 is applied to a fullcase is shown with reference to FIG. 4. It will be appreciated that theexamples of FIGS. 1 and 2 can be applied in the same manner, in the caseof FIG. 2 omitting the outer shell 5, and in the case of FIG. 1 with allof the case being formed of a single layer of thermoplastic polymer 1.

In the full case shown in FIG. 4, the TPU material 1 forms the bulk ofthe casing including the majority of the rear face 6. This is lined witha layer of viscoelastic polymer 3 which extends across a portion of therear face 6 and up the sides of the majority of the case. There areregions 7 and 8 in FIG. 4 where the viscoelastic polymer is absent andthe only material is the TPU so as to allow access to the buttons in theside of the device in region 7 and the ports for the charger plug andheadphone jack in region 8. The ribs 2 are present particularly at thecorners of the device to provide maximum cushioning in these regions.Running along the majority of each side of the case are truncated ribs2′ so that the case does not contact the device in these regions duringnormal use thereby further isolating the sides from impact on thescreen.

The interface between the TPU 1 and viscoelastic polymer 5 has aplurality of rectangular ribs 9 protruding inwardly from theviscoelastic polymer 5. These ribs 9 have a rectangular profile incross-section, the width of which is at least twice their depth.

The case is completed by the rigid polymer layer 5 which extends alongthe majority of each side of the case. There is also a ring of rigidpolymer 10 surrounding an orifice 11 which provides a window for therear facing camera, sensor and LED flash.

As can be seen from FIG. 4, the casing is designed to provide maximumcushioning in the corner regions. However, along the long side portions,the case is largely held away from the device and has enhanced rigidityafforded by the rigid polymer layer 5.

1. A case for a substantially rectangular mobile device with a screen,the case comprising a band having four sides arranged to surround theedge of the device, the band comprising a layer of flexible polymer anda layer of a damping material which is softer than the flexible polymerprovided within the flexible polymer layer, the damping material havinga plurality of outwardly projecting protrusions, wherein the pluralityof outwardly projecting protrusions extend along a substantial length ofat least one of the four sides of the band which are to surround theedge of the device and the plurality of outwardly projecting protrusionsproject outwardly away from the device.
 2. The case of claim 1, whereinthe plurality of outwardly projecting protrusions are embedded in theflexible polymer material along a substantial length of at least one ofthe four sides of the band which are to surround the edge of the device.3. The case according to claim 1, wherein the outwardly projectingprotrusions are ribs which are rectangular in cross-section when viewedin a section taken in the plane of the device.
 4. The case according toclaim 3, wherein the rectangular ribs have a width which is at leasttwice their depth.
 5. The case of claim 1, wherein the layer of dampingmaterial forms discrete unconnected portions.
 6. The case of claim 5,wherein there are regions around the band where the damping material isabsent such that the damping material does not extend continuouslyaround the band and the only material is the layer of flexible polymer.7. The case according to claim 1, wherein a layer of material harderthan the flexible polymer material is provided outside of the flexiblepolymer material.
 8. The case according to claim 7, wherein the layer ofmaterial harder than the flexible polymer material has a hardness rangeof 75 Shore A to 85 Shore D.
 9. The case according to claim 1, whereinthe flexible polymer layer has a Shore A hardness range of 70 to
 90. 10.The case according to claim 1, wherein the layer of damping material hasa Shore A hardness range of 0 to
 70. 11. The case according to claim 1,wherein each protrusion protrudes for a depth at least 0.5 mm from theband, has a width greater than the depth and a pitch between adjacentprotrusions which is greater than twice the width.
 12. The caseaccording to claim 11, wherein the depth of each protrusion is at least1 mm.
 13. The case according to claim 1, wherein the substantial lengthof at least one of the four sides having the plurality of outwardlyprojecting protrusions project outwardly, is an entire length of atleast one of the four sides of the band.